Multiplex Assay Kit for Growth Hormone (GH) ,etc. by FLIA (Flow Luminescence Immunoassay)
GH1; GH-N; GHN; hGH-N; Somatotropin; Hygetropin; Jintropin; Kigtropin; Pituitary Growth Hormone; Growth Hormone, Normal
(Note: Up to 8-plex in one testing reaction)
- Product No.LMA044Hu
- Organism SpeciesHomo sapiens (Human) Same name, Different species.
- Sample Typeserum, plasma and other biological fluids
- Test MethodDouble-antibody Sandwich
- Assay Length3.5h
- Detection Range0.01-10ng/mL
- SensitivityThe minimum detectable dose of this kit is typically less than 0.003 ng/mL.
- Downloadn/a
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Result
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Specificity
This assay has high sensitivity and excellent specificity for detection of Growth Hormone (GH) ,etc. by FLIA (Flow Luminescence Immunoassay).
No significant cross-reactivity or interference between Growth Hormone (GH) ,etc. by FLIA (Flow Luminescence Immunoassay) and analogues was observed.
Recovery
Matrices listed below were spiked with certain level of recombinant Growth Hormone (GH) ,etc. by FLIA (Flow Luminescence Immunoassay) and the recovery rates were calculated by comparing the measured value to the expected amount of Growth Hormone (GH) ,etc. by FLIA (Flow Luminescence Immunoassay) in samples.
Matrix | Recovery range (%) | Average(%) |
serum(n=5) | 96-103 | 99 |
EDTA plasma(n=5) | 82-98 | 86 |
heparin plasma(n=5) | 81-93 | 87 |
Precision
Intra-assay Precision (Precision within an assay): 3 samples with low, middle and high level Growth Hormone (GH) ,etc. by FLIA (Flow Luminescence Immunoassay) were tested 20 times on one plate, respectively.
Inter-assay Precision (Precision between assays): 3 samples with low, middle and high level Growth Hormone (GH) ,etc. by FLIA (Flow Luminescence Immunoassay) were tested on 3 different plates, 8 replicates in each plate.
CV(%) = SD/meanX100
Intra-Assay: CV<10%
Inter-Assay: CV<12%
Linearity
The linearity of the kit was assayed by testing samples spiked with appropriate concentration of Growth Hormone (GH) ,etc. by FLIA (Flow Luminescence Immunoassay) and their serial dilutions. The results were demonstrated by the percentage of calculated concentration to the expected.
Sample | 1:2 | 1:4 | 1:8 | 1:16 |
serum(n=5) | 97-105% | 88-102% | 79-102% | 95-105% |
EDTA plasma(n=5) | 93-105% | 93-103% | 83-101% | 95-102% |
heparin plasma(n=5) | 81-99% | 93-102% | 88-96% | 88-95% |
Stability
The stability of kit is determined by the loss rate of activity. The loss rate of this kit is less than 5% within the expiration date under appropriate storage condition.
To minimize extra influence on the performance, operation procedures and lab conditions, especially room temperature, air humidity, incubator temperature should be strictly controlled. It is also strongly suggested that the whole assay is performed by the same operator from the beginning to the end.
Reagents and materials provided
Reagents | Quantity | Reagents | Quantity |
96-well plate | 1 | Plate sealer for 96 wells | 4 |
Pre-Mixed Standard | 2 | Standard Diluent | 1×20mL |
Pre-Mixed Magnetic beads (22#:GH) | 1 | Analysis buffer | 1×20mL |
Pre-Mixed Detection Reagent A | 1×120μL | Assay Diluent A | 1×12mL |
Detection Reagent B (PE-SA) | 1×120μL | Assay Diluent B | 1×12mL |
Sheath Fluid | 1×10mL | Wash Buffer (30 × concentrate) | 1×20mL |
Instruction manual | 1 |
Assay procedure summary
1. Preparation of standards, reagents and samples before the experiment;
2. Add 100μL standard or sample to each well,
add 10μL magnetic beads, and incubate 90min at 37°C on shaker;
3. Remove liquid on magnetic frame, add 100μL prepared Detection Reagent A. Incubate 60min at 37°C on shaker;
4. Wash plate on magnetic frame for three times;
5. Add 100μL prepared Detection Reagent B, and incubate 30 min at 37°C on shaker;
6. Wash plate on magnetic frame for three times;
7. Add 100μL sheath solution, swirl for 2 minutes, read on the machine.
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Magazine | Citations |
Neuroscience Letters | The effect of peripheral administration of growth hormone on AD-like cognitive deficiency in NBM-lesioned rats PubMed: 19765635 |
Cellular Reprogramming | Changes in the Somatotrophic Axis in Genetically Identical Dogs PubMed: 21740269 |
Clinical Cancer Research | The efficacy of IGF-I receptor monoclonal antibody against human gastrointestinal carcinomas is independent of k-ras mutation status PubMed: 21642381 |
General and Comparative Endocrinology | Growth hormone expression and neuroprotective activity in a quail neural retina cell line ScienceDirect: S0016648009002457 |
Nutrition and Metabolism | Periodic 48 h feed withdrawal improves glucose tolerance in growing pigs by enhancing adipogenesis and lipogenesis Nutrition&Metabolism: source |
Veterinary Recprd Case Report | Treatment of cervical metaphyseal fractures due to delayed ossification in an adult dog with hypopituitarism Bmj: Source |
Journal of the American Animal Hospital Association | GH Deficiency in a Dalmatian Puppy with Megaesophagus Pubmed: 24051259 |
Biotechnology and Bioprocess Engineering | Functional expression of bovine growth hormone gene in Pleurotus eryngii Springer: Source |
Buletin Veteriner Udayana | Profil Growth Hormone Sapi Bali Betina Pada Tiga Tipe Lahan Pemeliharaan Di Provinsi Bali Unud:Source |
Veterinary World | Effect of prill fat supplementation on hormones, milk production and energy metabolites during mid lactation in crossbred cows Veterinaryworld:Source |
Int J Clin Exp Med | Effects of sericin on the testicular growth hormone/insulin-like growth factor-1 axis in a rat model of type 2 diabetes PubMed: 26379831 |
Acta Histochemica | Melatonin modulates monochromatic light-induced GHRH expression in the hypothalamus and GH secretion in chicks Pubmed:26948666 |
ANNALS OF ANIMAL SCIENCE | Comparison of the effect of a standard inclusion level of inorganic zinc to organic form at lowered level on bone development in growing male Ross broiler chickens journalprintahead:87 |
Annals of Animal Science | Comparison of the Effect of a Standard Inclusion Level of Inorganic Zinc to Organic Form at Lowered Level on Bone Development in Growing Male Ross Broiler Chickens view:87 |
Journal of Dairy Science | Effect of thermal stress on physiological, hormonal and haematological parameters in Tharparkar and Karan Fries calves publication:306322503 |
Jurnal Riset Akuakultur | TRANSMISI GEN PhGH DAN PERFORMA PERTUMBUHAN IKAN LELE AFRIKA (Clarias gariepinus) TRANSGENIK GENERASI KETIGA 1329 |
Trop Anim Health Prod | Assessment of feeding varying levels of Metabolizable energy and protein on performance of transition Murrah buffaloes pubmed:28785907 |
Biological Trace Element Research | Effect of Dietary Phytase Supplementation on Bone and Hyaline Cartilage Development of Broilers Fed with Organically Complexed Copper in a Cu-Deficient Diet article:10.1007 |
Revista Brasileira de Ciência Avícola | Effect of Zinc Level and Source (Zinc Oxide Vs. Zinc Glycine) on Bone Mechanical and Geometric Parameters, and Histomorphology in Male Ross 308 Broiler Chicken 10.159:1806-9061-2016-0285 |
畜牧兽医学报 | 单色绿光对鸡胚褪黑激素合成的影响 DOI: 10.11843/j.issn.0366-6964.2017.05.019 |
Obesity Surgery | Effects of Bariatric Surgery on Change of Brown Adipocyte Tissue and Energy Metabolism in Obese Mice pubmed:28853013 |
JURNAL VETERINER | Kadar Hormon Pertumbuhan Sapi Bali Lebih Rendah di Nusa Penida Daripada Daerah Bali Lainnya(LEVELS OF GROWTH HORMONE BALI CATTLE IN NUSA PENIDA LOWER THAN OTHER BALI REGIONS) 10.19087/jveteriner.2017.18.2.226 |
Veterinary World. | Factors influencing growth hormone levels of Bali cattle in Bali, Nusa Penida, and Sumbawa Islands, Indonesia. pubmed:29184372 |
Biochemistry, Genetics and Molecular Biology | Effects of Dietary Lysine Levels on the Plasma Concentrations of Growth‐Related Hormones in Late‐Stage Finishing Pigs 10.5772/intechopen.68545 |
Cellular Physiology and Biochemistry | Decreased Hepatic Lactotransferrin Induces Hepatic Steatosis in Chronic Non-Alcoholic Fatty Liver Disease Model Pubmed:29975946 |
PLoS One | Subsequent somatic axis and bone tissue metabolism responses to a low-zinc diet with or without phytase inclusion in broiler chickens Pubmed:29373588 |
Pakistan Journal of Zoology | Effects of Intrauterine Growth Retardation on Growth, Meat Quality and Muscle Fiber Composition of Pigs. : |
Cell Reports | Zika Virus Infection in Hypothalamus Causes Hormone Deficiencies and Leads to Irreversible Growth Delay and Memory Impairment in Mice Pubmed: 30404008 |
International Journal of Current Microbiology and Applied Sciences | Physiological Performance of Crossbred Cattle Calves (Karan Fries) under Different Housing Conditions during Different Seasons |
Photochemistry and Photobiology | Melatonin Receptor Mel1b‐and Mel1c‐mediated Green Light Induced the Secretion of Growth Hormone in Anterior Pituitary of Chicks Pubmed: 31111492 |
Journal of Animal Science | Dietary lysine affects amino acid metabolism and growth performance, which may not involve the GH/IGF-1 axis, in young growing pigs Pubmed: 31922564 |
SAUDI MEDICAL JOURNAL | The evaluation of leukocyte-platelet rich fibrin as an anti-inflammatory autologous biological additive Pubmed: 31287125 |
Frontiers in Endocrinology | RFRP-3, the Mammalian Ortholog of GnIH, Is a Novel Modulator Involved in Food Intake and Glucose Homeostasis Pubmed: 32328034 |
JOURNAL OF VETERINARY DIAGNOSTIC INVESTIGATION | Isolated growth hormone deficiency in a Chihuahua with a GH1 mutation Pubmed: 32646299 |
Scientific Reports | Controlled elevated temperatures during early-mid gestation cause placental insufficiency and implications for fetal growth in pregnant pigs 33244103 |
Animal | Effect of alfalfa hay and starter feed supplementation on caecal microbiota and fermentation, growth, and health of yak calves 33610512 |
JOURNAL OF CELLULAR AND MOLECULAR MEDICINE | GHR is involved in gastric cell growth and apoptosis via PI3K/AKT signalling 33492754 |
animals | Effects of Concentrate and Bypass Fat Supplementations on Growth Performance, Blood Profile, and Rearing Cost of Feedlot Buffaloes 34359233 |
Catalog No. | Related products for research use of Homo sapiens (Human) Organism species | Applications (RESEARCH USE ONLY!) |
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PAA044Hu06 | Polyclonal Antibody to Growth Hormone (GH) | WB; IHC; ICC; IP. |
PAA044Hu01 | Polyclonal Antibody to Growth Hormone (GH) | WB; IHC; ICC; IP. |
MAA044Hu22 | Monoclonal Antibody to Growth Hormone (GH) | WB; IHC; ICC; IP. |
MAA044Hu26 | Monoclonal Antibody to Growth Hormone (GH) | WB; IHC; ICC; IP. |
MAA044Hu21 | Monoclonal Antibody to Growth Hormone (GH) | WB; IHC; ICC; IP. |
MAA044Hu23 | Monoclonal Antibody to Growth Hormone (GH) | WB; IHC; ICC; IP. |
MAA044Hu24 | Monoclonal Antibody to Growth Hormone (GH) | WB; IHC; ICC; IP. |
MAA044Hu25 | Monoclonal Antibody to Growth Hormone (GH) | WB; IHC; ICC; IP. |
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CEA044Hu | ELISA Kit for Growth Hormone (GH) | Enzyme-linked immunosorbent assay for Antigen Detection. |
AEA044Hu | ELISA Kit for Anti-Growth Hormone Antibody (Anti-GH) | Enzyme-linked immunosorbent assay for Antibody Detection. |
SCA044Hu | CLIA Kit for Growth Hormone (GH) | Chemiluminescent immunoassay for Antigen Detection. |
LMA044Hu | Multiplex Assay Kit for Growth Hormone (GH) ,etc. by FLIA (Flow Luminescence Immunoassay) | FLIA Kit for Antigen Detection. |
PSA044Hu01 | Antibody Pair for Growth Hormone (GH) | ELISA; CLIA; ELISPOT; Luminex; Immunochromatography and other Immunoassays. |
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